JPH11504780A - Eye contact device using directional transmission layer for video conferencing - Google Patents

Abstract

(57) Abstract The eye contact video conferencing terminal (500) includes a mirror (521, 522), a directional transmission layer (601), ie, a louver assembly, and a camera (530), which transmit light through the device. It is positioned relative to each other so that intimate communication between the parties can be achieved without significantly reducing the rate. The louver assembly is positioned in front of the terminal screen and passes images of the remote party radiated from the terminal screen substantially parallel to the louver assembly. The first partially mirrored silver mirror (521) reflects the image of the local party and radiates from the terminal screen (125) and transmits the image of the remote party passed by the louver assembly. The reflected image of the local party is directed toward a second mirror (522) located below the first mirror, which captures the image of the local party from the first mirror and miniatures the image.・ It is positioned so that it reflects off the camera.

Description

DETAILED DESCRIPTION OF THE INVENTION          Eye contact device using directional transmission layer for video conferencing                                 Related patents   A patent related to the present application is a U.S. Patent issued on May 26, 1992. No. 5,117,285 (inventors TJ Nelson and L.S. Smoot, title of invention) `` Eye Contact Apparatus for Video Confe rensing) "), in which inventions related to the present invention are disclosed and claimed. The disclosure of which is incorporated herein by reference.                                Field of the invention   The present invention relates to video conferencing devices, and more particularly, to communicating parties. The present invention relates to the above-described device that enables eye contact (matching of eyes).                                Background of the Invention   Communication between remote parties makes communication between the parties more personal and intimate It has been developed with emphasis on things. This means that written communications (letters and text From regraphs) to voice and data communications (telephony), and further to visual communications (video It is clear if you look at the transition to (e). However, video conferencing Despite this, the telecommunications profession still has a higher intimacy through eye contact Complain that sex is necessary.   Several attempts have been made to achieve eye contact between communicating parties. I have. However, these methods have limitations and drawbacks that make them available in video communications. The intimacy and benefits are offset. In a typical video conferencing configuration, a video camera And the terminal screen are not aligned with each other, but the communicating parties To the attention of the remote party, or It is configured so that it is possible to select whether to view images of parties in remote areas. Which is this configuration Also prevents eye-to-eye contact between the communicating parties Will be.   One of the conventional attempts to realize eye contact is a teleconference (teleconference). A half-silvered mirror is placed in the terminal, Later, the camera is placed, and the display screen is placed away on one side. This section In the setup, the image emitted on the display screen of the remote party is Is reflected by a semi-plated silver mirror towards the The images of the parties are passed by a semi-plated silver mirror and scanned by a camera Have been. Such a configuration allows for eye contact between the parties, Some negative effects also occur.   To change the internal content and configuration of a traditional teleconferencing terminal, use specially designed terminals. This requires extra cost, but makes video conferencing applications prohibitively expensive. Further display Assuming the clean position has been determined, the image projected to the local Appears indented on the surface and appears to be far away. Therefore, eye contact The intimacy gained by doing so will be lost when the projected image is depressed .   The traditional, realization of eye contact through the design of a new video conference terminal One approach is to use a video projection source, video camera, semi-plated silver mirror and It employs a liquid crystal screen, which is a rice issued on May 22, 1990. No. 4,928,301 (LS Smoot). LCD screen Is excited by a sufficient control voltage to switch from the transparent state to the translucent state at high speed. And it is possible. This terminal supports capture mode and image display mode. It operates in two modes of mode. When in image capture mode, the LCD Play is excited, the front screen is transparent, and the video camera is The head-on image of the party concerned is detected. When in image display mode , The LCD screen becomes translucent and acts as a rear projection screen, Remote locations generated by a projector source and reflected by a semi-plated silver mirror Display images of the parties. In such a remote conference system employing two terminals, Must maintain synchronization between devices in order to maintain effective communication and eye contact. It is necessary.   The two forms of operation and configuration of the terminal ensure eye contact between the communicating parties. However, as with other eye contact configurations developed earlier, There are several drawbacks. This configuration requires a new terminal specifically designed Existing devices purchased for video conferencing will be replaced and wasted. Would. Furthermore, according to this configuration, synchronization is required to correctly perform communication between terminals. is necessary. Maintaining timing between terminals is necessary in conventional video conferencing systems. Not required. Therefore, the added synchronization complexity and adoption of this conventional terminal The other drawback is that the benefits obtained by achieving eye contact Turn around, hindering its use.   Other eye contact configurations that do not require changes to video conferencing terminals already in use Attempts have also been made. The relationship between eye contact and the satisfaction of videoconferencing between correspondents Ain contact was realized using a mirror and camera in an experiment to evaluate the staff The device that performs R. Acker and S.M. R. Levitt's paper, "Improved Eye Contact Designing Vedeoconference Facilities for Improved  Eye Contact) ", Journal of Broadcasting & Electronic Media, Volume 31, No. 2, Spring 1987, pp. 181-191. In this configuration, video conferencing A semi-plated silver mirror placed at a 45 degree angle to the terminal screen is local It is placed between the parties and the video conference terminal, and connects the terminal display and the optical path of the camera. To match. This semi-plated silver mirror completes the image of the local party The image is reflected by a full-silvered mirror, and the fully-plated silver mirror To a remote party. At the same time, remote parties The image emitted from the terminal screen is passed through a semi-plated silver mirror and Local parties.   This device achieves eye contact without changing existing video conferencing terminals. However, due to the relative position and angle of the mirror and camera, the device becomes very large. This makes it inconvenient to use it with existing terminal screens. In addition, this configuration The disadvantage is that the display appears to be deeply recessed in the device It is. The main reason for this is due to the protruding distance of the device from the terminal screen. You.   In view of the above-mentioned disadvantages and disadvantages of conventional terminals and devices, the object of the present invention is to Eye contact between the communicating parties without changing the video conference terminal Are configured to enable more intimate communication between the parties. It is to provide a device that has been developed.   Conventional U.S. Pat. No. 5,117,285 (hereinafter referred to as' 285) includes: The interaction between the local party and the image of the remote party appearing on the terminal screen Describes equipment used in video conferencing applications to establish contact. You. This device is equipped with a polarizer, a mirror and a camera. The relative positions and angles of the components are determined in a special, well-defined manner, Eye contact is realized to minimize the protruding distance of the device from the terminal screen doing.   Inside this device, the first polarizer and the first mirror have a local party and a terminal scanner. They are collinear during the clean. The number just before the terminal screen One polarizer passes the polarization of the remote party's image emitted from the terminal screen. Let it pass. Partially silver-plated, first mirror captures local party image Reflected, radiated from the terminal screen and passed through the first polarizer Transmit the image of the person. The reflected image of the local party is below the first mirror It is sent towards the second mirror that is placed. The second mirror is the mirror from the first mirror. Capture the image of the local party and reflect that image back to the miniature camera. Position. The second mirror also captures light transmitted by the first mirror. Camera picks up extraneous (irrelevant) images of remote parties There is a risk of up. Second polarizer cross-polarized with respect to first polarizer Is placed between the second mirror and the camera, and the remote party's It works to minimize contrast light and improve contrast.   The device of the '285 patent describes another device used to achieve eye contact. It eliminates many of the disadvantages and limitations of the device. However, the device of patent '285 is improved There is something to be done. It is the transmission of the device. Specifically, the device of Patent '285 Employs a first polarizer and a second polarizer, each of which emits light having a particular polarization. Otherwise, it rejects light with orthogonal polarization, otherwise the local Should improve the image displayed to the actor and captured by the camera party Light is rejected in large quantities, reducing the total transmission of the system.   Therefore, another object of the present invention is to improve the conventional device of the '285 patent and to E Without changing the conference terminal and configuration, and without significantly reducing the transmittance. Establishes eye contact between communicating parties, enabling more intimate communication between the parties It is an object of the present invention to provide a device which is adapted to be used.                                Summary of the Invention   The present invention provides an interface between communicating parties without changing existing video conferencing terminals. Establish contacts and allow more parents between parties without significantly reducing equipment transmission. The present invention relates to a device that realizes dense communication. The device according to the invention is mirror and mini Although equipped with an amateur camera, unlike the conventional device, the device of the present invention Does not include a first polarizer and a second polarizer that reduce the total transmittance of the. That Alternatively, the device of the present invention may be a finger, such as a louver assembly. It has a directionally transmissive layer.   The directional transmission layer is placed in front of the terminal screen, and the micro The louver (microlouver) passes light at an angle approximately perpendicular to it, and this light Contains images of remote parties emitted from the lean. This transmission layer is conventionally This works the same as combining the polarizers in the previous device, and also uses the camera From the local party's image transmittance and the terminal screen Advantage that the transmittance of the image of the remote party radiated to the person is greatly improved Is obtained.   The apparatus of the present invention comprises a partially plated silver placed between a local party and a directional transmission layer. Also includes a mirror. This partially plated silver mirror reflects the image of the local party Image of a remote party radiated from the terminal screen and passed through the directional transmission layer Through. The reflected image of the local party goes to the camera module The camera module is placed just below the partially-plated silver mirror and It is positioned horizontally parallel to the screen.   The camera module includes a second mirror and a miniature camera. Only However, unlike conventional devices, the camera module of the device of the present invention reduces the transmission of the device. Does not include a second polarizer to lower. Local parties partially plated silver Mira The image reflected from the mirror is directed to a second mirror located below the partially-plated silver mirror. Sent. This second mirror is an image of the local party from a partially plated silver mirror Captured and positioned to reflect that image to the miniature camera Have been.   In order to facilitate understanding of the configuration and operation of the present invention, the actual configuration illustrated in the accompanying drawings will be described. This will be described in detail below with reference to examples.                             BRIEF DESCRIPTION OF THE FIGURES   Figure 1 shows the video camera and terminal screen not aligned with each other 1 is a schematic diagram showing a typical video conference configuration of the related art.   Fig. 2 shows an icon tactic between the communicating parties using a mirror and camera designed inside the terminal. FIG. 1 is a schematic diagram illustrating a prior art video conference terminal that allows for remote access.   Figure 3 shows a liquid crystal operating in image capture mode and image display mode 1 is a schematic diagram showing a conventional teleconference terminal employing a display.   Figure 4 achieves eye contact without changing existing video conferencing terminals FIG. 1 is a schematic diagram showing a configuration described in the prior art.   FIG. 5 shows an icon according to an embodiment of the conventional device described in the patent '285. FIG. 2 is a schematic view showing a side surface of the device.   FIG. 6 shows an eye contact device employing a directional transmission layer according to an embodiment of the present invention. It is the schematic which shows a side surface.   FIG. 7 illustrates a louver assembly as a directional transmission layer according to an embodiment of the present invention. FIG.   8 and 9 are employed in an eye contact device according to an embodiment of the present invention. FIG. 3 is a schematic diagram showing the top and side surfaces of the camera module, respectively.                                Detailed description   FIG. 1 is a schematic diagram showing a conventional video conferencing configuration 100 according to the prior art. This In such a configuration, the video camera 130 and the conventional terminal 120 are arranged in line with each other. Not. Thus, the local party 110 stares at the terminal screen 125 View images of remote parties or stare at video camera 130 Select whether to warn the remote party at the local video conference terminal (not shown) There must be. In this configuration, no matter which option you choose, the communication between Eye-to-eye contact will be impeded.   FIG. 2 shows an icon between a local party 110 and a remote party (not shown). FIG. 1 is a schematic diagram illustrating a prior art video conferencing terminal 200 that enables tact; In the terminal design, it is necessary that the basic components are installed in the terminal 200. is necessary. In this setup, the terminal screen 125 on the front of the terminal 120 The image of the remote party emitted above is halfway towards the local communicating party 110. Reflected by the plated silver mirror 201, while the image of the local party is semi-plated The light passes through the silver mirror 201 and is scanned by the camera 130. this Such a configuration would allow for eye contact between the parties, but would require traditional video conferencing To change the internal content and configuration of the terminal (shown in FIG. 1), a specially designed terminal Is required. If the position of the display screen is fixed in the terminal, The image projected to the viewer appears to be recessed in the screen and separated.   FIG. 3 shows another conventional video conference terminal 3 employing a liquid crystal display 301. FIG. In the design adopted by the video conference terminal 300, Video projection source 302, video camera 130, semi-plated silver mirror 304 and And a liquid crystal display 301. This terminal supports image capture mode It operates in two modes: mode and image display mode. Image capture mode When the liquid crystal display 301 is in the position Of the local party 110 is transparent. To detect the image. When in image display mode, the LCD display 301 is translucent and functions as a rear projection screen, and the video projection source 3 02 and reflected by the semi-plated silver mirror 304 Display an image. In a remote conference system that uses two terminals, a conventional video conference system Unlike Stem 100 (shown in FIG. 1), maintains effective communication and e-contact It is necessary to keep synchronization between terminals in order to do so. In addition, this new specially designed terminal Adopting will replace existing legacy terminals purchased for video conferencing, turn into.   Unlike the eye contact terminal shown in FIGS. 2 and 3, it is shown schematically in FIG. Eye contact configuration works with existing video conferencing terminal 120 already in use Different conventional structures that serve to achieve eye contact between the communicating parties. It is good. In this configuration, at an angle θ of approximately 45 degrees with respect to the terminal screen 125, Positioned, semi-plated silver mirror 401 is video with local party 110 It is placed between the conference terminals 120 and controls the optical path between the terminal display 125 and the camera 130. Are combined. Semi-plated silver mirror 401 halves the image of local party 110 The light is reflected by the all-plated silver mirror 402 parallel to the silver mirror 401. After that, The plated silver mirror transfers the image of the local party 110 to a remote terminal (not shown) Is reflected by the camera 130 for transmission. At the same time, the remote party's terminal The image emitted from the display 125 passes through the half-plated silver mirror 401 and is Displayed to the cull party 110.   This device achieves eye contact without changing existing video conferencing terminals. However, due to the relative position and angle of the mirror and camera, the device becomes very large. Inconvenient and unsuitable for practical use. Further, the difficulty of this configuration 400 is that It looks like Lee is deeply recessed in the terminal. The main cause of this difficulty is Controlled by a 45 degree angle between the semi-plated silver mirror 401 and the terminal screen 125 This is because of the projected distance from the terminal screen 125 of this configuration that is reduced.   The device of the conventional patent '285 communicates without changing existing video conference terminals. Achieve contact between the parties in line of sight and achieve more intimate communication between the parties. I am trying to realize the trust. FIG. 5 shows an eye contact device 50 according to the prior art. It is the schematic which shows the side of 0.   The device of the '285 patent is a polarizer, mirror, and miniature camera. It has. As shown in FIG. 5, inside the device 500, a polarizer 511 and Partially plated silver mirror 521 is between local party 110 and terminal screen 125 Has been placed. Polarizer 511 placed just in front of terminal screen 125 , A remote location radiated from a terminal screen 125 substantially parallel to its polarization direction Pass the polarization of the image of the party. Partially plated silver mirror 521 is a local matter The image of the person 110 is reflected and emitted from the terminal screen 125, and the polarizer 51 is reflected. 1. Transmit the image of the remote party passed by 1. Local party 11 The reflected image of 0 and the transmitted image of the remote party are both camera modules. 550. However, polarized images of remote parties are Absorbed by a second polarizer located within the LA module 550.                        Eye contact device of the present invention   The present invention also allows the communication parties to see Establish point-of-contact to ensure more intimate communication between parties Related to the device. FIG. 6 shows an eye contact device 600 according to an embodiment of the present invention. It is the schematic which shows the side surface of. The apparatus of the present invention is used together with the conventional video conference terminal 120. Or can be implemented directly on such a terminal as shown in FIG. Compact assembly. In this particular configuration, the device is hood 136 (detailed). The details are stored in section A) and can be done with Velcro (not shown) or Is mounted on the terminal screen with machine screws. Is lighter, so both are possible.   As with the prior art device of '285, the device of the present invention comprises a mirror and a miniature camera. However, unlike the conventional device, the device of the present invention reduces the total transmittance of the device. Contains no degrading polarizer. Instead, the device of the invention is a louver It has a directional transmission layer, such as an assembly, which is in front of the terminal screen and It is collinear with the terminal screen. The components of the device of the invention Geometrically positioned with respect to each other in a well-defined special way, at an angle Achieve eye contact and minimize the distance the device protrudes from the terminal screen 125 I have to.   Specifically, as shown in FIG. 6, inside the device 600, the directional transmission layer 601 is provided. And the partially-plated silver mirror 521 are connected to the local party 110 and the terminal screen 125. Between them. The directional transmission layer is placed immediately in front of the terminal screen 125 and the finger Of the remote area radiated from the terminal screen 125 at an angle substantially orthogonal to the directional transmission layer. Let the light pass, including the images of the parties. Partially plated silver mirror 521 is local It is located between the party 110 and the directional transmission layer. Mirror 521 is a local matter The image of the person 110 is reflected, radiated from the terminal screen 125, and 01 transmits the image of the remote party passed by 01. Local party 1 The ten reflected images are sent to camera module 550.   As shown in FIG. 6, the camera module is similar to the device 500 of the '285 patent. 550 is placed just below the partially plated silver mirror 521 and Positioned in parallel and horizontal, as shown in FIGS. The camera includes a true camera 530. However, the conventional device 500 of the patent '285 Unlike the apparatus 600 of the present invention, any polarizer that reduces the transmission of the apparatus may be used. Does not include the. A. Camera platform module   As shown in FIGS. 8 and 9, the camera module 550 is a platform. 132 is mounted on the hood 13 with a rod fastener 134. 6 is held on a platform mounting rod 133 connected to the bottom of You. One end of the platform mounting rod 133 is 2 and the other end is fixed to the rod fastener 134, and the camera module The rotation and vertical movement of the rule 550 are enabled. As shown in FIG. 22 is mounted on the adjustable jig 137 and between the mirror 522 and the camera 530 So that the entire field of view of the camera 530 can be taken through the mirror 522 doing. Camera 530 is connected to platform 132 by support 138. Has been continued. Within the camera module 550, the mirror 522 is In the preferred embodiment, θ is approximately 45 degrees. Further The mirror 522 is not parallel to the partially-plated silver mirror 521 shown in FIG. Has become.   The image reflected from the partially-plated silver mirror 521 of the local party 110 is partially It is sent towards a mirror 522 located below the plated silver mirror 521. Mi 522 captures the image of the local party from the partially-plated silver mirror 521. And the image is reflected to the miniature camera 530. Mi Only the light that is within the field of view of the camera is reflected to the camera. Therefore it is captured. Here, the field of view of the camera is the light that is received by the camera. Area.   Another advantage of mirror 522 is that it is displaced when reflected by partially plated silver mirror 521. To effectively correct the image of the remote party. Mirror 522 is a terminal Remote radiation emitted from the screen 125 and transmitted through the partially-plated silver mirror 521 It also captures the extraneous light of the local party. This extraneous light is transmitted to the The light will be reflected in the direction of the arrow 530. B. Equipment hood   As shown in FIG. 6, all components of the device are mounted in a hood 136. The hood is made of metal or plastic assembly and its upper part And side parts are fixed to maintain the geometrical relationship between the components of the equipment Is critical to optimizing device performance. is there. An additional part of the hood assembly is a baffle 131, which is It covers the empty space above the plated silver mirror 521. Baffle 131 is good Preferably, it is black to prevent stray light from impinging on the terminal screen 125. Painted with. In addition, mounts located outside the hood and inside the hood The assembly is preferably painted in black to eliminate stray light and spurious reflections Have been Hood assembly folded sheet metal or molded ・ Making from plastic is desirable in terms of reducing equipment costs and weight. New C. mirror   The partially plated silver mirror 521 shown in FIG. Radiated from the terminal screen 125 and passed by the directional transmission layer 601 Transmit images of remote parties. Of the light reflected and transmitted by the mirror The percentage depends on the reflectivity of the preselected mirror. Conventional eye The contact device employs a semi-plated silver mirror having a nominal reflectance of 50%. The analysis by the inventors of the present invention has revealed that the partial reflection mirror 521 has been selected. The reflected reflectivity is due to two factors: the brightness of the terminal screen 125 and the camera 5. Weighting and balancing based on the amount of light required to achieve sufficient transmission from That is, you should take a lance.   The total percentage of light (X) reflected by the mirror and light (Y) transmitted is logical. Ideally, it is 100% (that is, X + Y = 100%). Therefore, the reflectivity is 30 % Mirror reflects 30% of the light incident on it from one direction and the other Transmits 70% of the light incident on it from above. As is clear from the above, the camera Increasing the level of reflected light to improve the light reception of the Selected from the terminal screen 125 to the local party 110 The brightness of the light will be directly reduced. Conversely, the light receiving screen 125 Increasing the level of transmitted light to increase visible brightness (i.e., reflectivity Lower mirror), the quality of the signal sent by the camera to the remote party Will decrease directly. In the illustrated embodiment constructed in accordance with the present invention, The plated silver mirror 521 has a reflectance of 30% to 40% (therefore, 70% to 40%). 60%).   In the preferred embodiment, the mirror 522 shown in FIGS. 8 and 9 has a reflectivity of 100%. All-plated silver mirror is used for all of the present invention. It is not always adopted in the embodiments. Partial plating perpendicular to terminal screen 125 Camera module 550 to capture light directly from silver mirror 521 Rotating eliminates the second mirror 522 without departing from the scope of the present invention. Is possible. When the camera module 550 is rotated in this manner, the device is Projects slightly away from the front of the screen, but this configuration And more of the local party and its surroundings reflected by the first mirror Capable of being directly captured by the camera without being constrained by the size of the plated silver mirror I will be charged. D. Directional transmission layer-louver assembly   Unlike the conventional device shown in FIGS. 5, 8 and 9, the device of the present invention shown in FIG. Between the clean 125 and the partially plated silver mirror 521 and between the mirror 522 and the camera 5 Between 30, the respective polarizers 511 and 512 are not included. Instead In addition, the device of the present invention is captured by a camera 530, such as a louver assembly. Image of the local party 110 and the screen radiated from the terminal screen 125 Includes a directional transmissive layer to enhance contrast between extraneous lights of remote parties It is. The transmissive layer has the same function as combining the polarizer of the prior art device of '285. When using the louver assembly and removing the polarizer, The transmittance of the image of the local party 110 captured by the camera 530 and Transmittance of image of remote party radiated from terminal screen to local party Another advantage is that the is significantly improved.   To reduce the interference light from the terminal screen 125, the louver assembly 6 01 is the terminal screen 125 and the partially plated silver mirror 521 as shown in FIG. Are positioned substantially parallel to the terminal screen 125. Louver The assembly 601 is substantially parallel to the microlouver in the louver assembly 601 Pass the light from the terminal screen emitted at an angle Transmitted to local party 110 by silver mirror 521. Almost orthogonal to louver Light from the terminal screen emitted at an angle Is prevented from entering the camera, The contrast between the person's image and other extraneous light will be improved.   Unlike conventional devices, in the present invention, the local party 100 and the transmittance of the local party captured by the camera The contrast can be improved without sacrificing the image transmittance. Book According to the invention, both high transmittance and enhanced contrast are achieved without sacrificing the other. A trade-off between transmission and contrast enhancement There is no.   In order to explain the difference in transmittance between the conventional device of Patent '285 and the device of the present invention, Consider the following: In the conventional device of Patent '285, the terminal screen Of the image emitted from the screen 125 to the local party 110 (T_prior) Is the formula As shown in FIG. 1, the transmittance (T_mirror521) Polarizer 5 11 (T_polarizer511). T_prior = T_mirror521 × T_polarizer511                        (1) In the present invention, the image emitted from the terminal screen 125 to the local party 110 Transmittance (T_present) Is the transmittance of the partially-plated silver mirror (T_{mir ror521} ) Is the transmittance of the louver assembly (T_louver). T_present = T_mirror521 × T_louver                            (2)   The research by the inventors of the present application has revealed that a typical example of a partially-plated silver mirror is Is 0.7, that of the polarizer 511 is 0.4, and that of the louver assembly is 0.4. Since this is 0.75, the following typical transmittance is obtained. T_prior = (0.7) (0.4) = 0.28 (3) T_present = (0.7) (0.75) = 0.52 (4)   Thus, according to the invention, the light emitted from the terminal screen to the local party Is almost twice the transmittance achieved with the prior art device of '285.   The transmittance of light emitted by local parties and captured by the camera A more remarkable comparison between the case of the conventional apparatus of the patent '285 and the case of the present invention. Results are obtained. In the conventional device of Patent '285, a local party sends a The total transmittance of the emitted image (T_prior) Is a partially plated silver mirror as shown in Equation 5. -Reflectance (R_mirror512) Is the reflectance of the total reflection mirror (R_mirror522) Over the pola The transmittance of riser 512 (T_polarizer512). T_prior R_mirror521 × R_mirror522 × T_polarizer512            (5)   In the present invention, the transmittance (T_present ) Represents the reflectance (R) of the partially-plated silver mirror as shown in Equation 6._mirror521) All plating Silver mirror reflectivity (R_mirror522). T_present = R_mirror521 × R_mirror522                         (6) The research by the present inventors has revealed that the typical reflection of a partially-plated silver mirror is The ratio is 0.3, that of the total reflection mirror 522 is 1.0, and that of the polarizer 512 is typical. Since the transmittance is 0.4, the following typical transmittance is obtained. T_prior = (0.3) (1) (0.4) = 0.12 (7) T_present = (0.3) (1) = 0.3 (8)   Thus, according to the present invention, the transmittance of light emitted from a local party to the camera Is 2.5 times the transmittance achieved with the prior art device of '285.   In the embodiment shown in FIG. 7, the louver assembly 601 employed in the present invention is It is a plastic thin film composed of micro louvers 602. About 0.005 inch (0.127 mm) to 0.010 inch (0.2 54 mm). Each microlouver is about 0.0005 Inches (0.0127 mm) thick, the assembly is approximately 0.030 inches (0. 762 mm) depth, which minimizes the projecting distance of the device. You. In the illustrated embodiment, an optical system light controller manufactured by 3M is used. A film can be used as the louver assembly 601.                                   Conclusion   As mentioned above, the present invention is used to achieve eye contact in video conferencing. It eliminates many of the shortcomings and limitations of other devices used. Specifically, the present invention From the local party image captured by the camera and the terminal screen The contrast between the emitted heterogeneous lights of the remote parties is used in conventional equipment. Directional transmissive assemblies such as louver assemblies instead of It is improved by using. A notable advantage of the device according to the invention is the reduced transmission. Device that uses a polarizer, which has a trade-off relationship with the contrast enhancement In contrast, the transparency of the image emitted from the terminal screen and displayed to the local party Increase the transmittance of local party images captured by the camera That is, the contrast was improved without decreasing the width.   Apparatus as described above for establishing eye contact between communicating parties during a video conference The examples are merely illustrative of the present invention. Spirit and scope of the present invention described in the claims. The above-described embodiment of the present invention can be modified in various forms without departing from the scope of the present invention. is there.

[Procedure amendment] [Date of submission] June 3, 1998 [Details of amendment] (1) The claims will be amended as shown in the attached sheet. (2) On page 13 of the specification, line 5 to line 7, "Unlike the conventional device shown in FIGS. 5, 8 and 9, the device of the present invention shown in FIG. In contrast to the conventional apparatus shown in FIG. 5, the apparatus of the present invention shown in FIG. 6 differs from the terminal screen 125 in that the polarizers 511 and 512 are not included between the mirror 522 and the camera 530. It does not include a polarizer 511 between the plated silver mirror 521 and a polarizer between the mirror 522 and the camera 530. " (3) “R _mirror512 ” on page 15, line 4 of the specification is corrected to “R _mirror521 ”. Claims 1) A video conferencing terminal that does not include a polarizer and enables eye contact between a local party watching a terminal screen and an image of a remote party on the screen, wherein the local party A camera module for capturing an image of the remote party and transmitting the image to the remote party; and a partial plating for transmitting the image of the remote party on the screen and reflecting the image of the local party to the camera module. A silver mirror, the terminal simultaneously increasing the transmission of light from the screen to the local party, the camera module between the image of the local party and the light emitted from the screen In front of the light from the local party to the camera module Further comprising means for increasing transmission, said means comprising a louver assembly having microlouvers, said louver assembly being located on said screen and between said screen and said camera module. A video conference terminal. 2) The video conference terminal according to claim 1, wherein the microlouver of the louver assembly is transmitted to the local party through light from the screen emitted at an angle substantially parallel to the microlouver. On the other hand, light from the screen emitted at an angle approximately orthogonal to the microlouver is absorbed by the louver assembly and, thus, is prevented from being transmitted to the camera module by the partially plated silver mirror. Video conferencing terminal, wherein the video conferencing terminal is directed between the screen and the local party.

Claims (1)

[Claims] 1. Local parties watching the terminal screen and remote locations on the terminal screen A device for establishing eye contact with an image of a party of   A directional transmission layer placed in front of the screen, wherein the directional transmission layer is Means for passing an image of the remote party emitted from the clean, The passing means is a finger which is almost parallel to a specific direction to improve the contrast. A directional transmission layer,   Partially silvered to reflect the image of the local party, Image of the remote party radiated from the screen and passed by the directional transmission layer. A first mirror for transmitting an image,   The local located below the first mirror and reflected from the first mirror; Captures images of the party and radiates from surrounding sources and from the screen Camera module that optimizes contrast by minimizing extraneous light The image of the local party received by the camera module has an associated transmittance And the image of the remote party emitted from the screen has an associated transmittance. With a camera module having   The directional transmissive layer is used for the local event captured by the camera module. The contrast between the image of the observer and the extraneous light emitted from the screen is The transparency of the image of the remote party emitted from the lean to the local party. The percentage and the transmission of the image of the local party received by the camera module A device characterized by an improvement without significantly reducing the rate. 2. The device of claim 1, wherein the directional transmission layer comprises a louver assembly. Wherein said means for passing through said directional transmission layer is a microlouver of said louver assembly. The particular one of the louver assemblies being substantially parallel to the microlouver. The light emitted from the screen in the direction Absorbing light emitted from the screen substantially perpendicular to the louver. Device. 3. 3. The apparatus according to claim 2, wherein the microlouver is 0.010 inches (0.010 inches). 0.254 mm) or less, and each of the microlouvers is 0.000 mm. 5 inches (0.0127 mm) or less in thickness and at least 0.030 inches Device having a width of 0.76 mm. 4. 3. The apparatus according to claim 2, wherein the camera module comprises:   Capture the image of the local party reflected from the first mirror A second mirror positioned as follows:   Capturing an image of the local party reflected from the second mirror; A camera for transmitting to another terminal that the remote party is watching   An apparatus comprising: 5. 5. The apparatus of claim 4, wherein the second mirror is all silver plated and the second mirror is Correcting the image of the local party that is transposed when reflected by one mirror This allows eye contact to be maintained and The movement of the user is correctly projected and directed on the terminal seen by the remote party An apparatus characterized in that it can be performed. 6. 6. The apparatus of claim 5, wherein the second mirror is an image of the local party. An image is positioned to reflect the camera to the camera, the camera displaying on a terminal screen. In front of the terminal screen so that the indication is not blurred by the camera, and Apparatus characterized in that it is positioned horizontally below said terminal screen. 7. The device of claim 1, wherein components of the device are configured such that ambient light Mounted inside the hood to prevent clean hits and minimize reflections An apparatus characterized in that: 8. Local party and remote party appearing on terminal screen during video conference Terminal screen used to achieve eye contact with the image of the terminal A device that can be attached to   A directional transmission layer placed in front of the terminal screen,   Partially silver plated to minimize protrusion of the device from the screen The angle with respect to the screen is smaller than 45 degrees. Mirror and   Positioned in front of the terminal screen and collinear with the terminal screen An image of the local party placed horizontally and reflected from the first mirror A camera module that captures       Capturing an image of the local party reflected from the first mirror A second mirror positioned in consideration of the first mirror,       The local mirror is positioned at approximately 45 degrees with respect to the second mirror; The second mirror is focused to receive an image of the remote party; A camera that transmits to another terminal that the party of the party is watching and that is received by the camera The image of the local party has an associated transmittance and emits from the terminal screen The image of the remote party identified includes a camera having an associated transmission. With a camera module,       The directional transmission layer is an image of the local party captured by the camera. The contrast between the image and the extraneous light emitted from the screen The transmittance of the image of the remote party radiated to the local party from the Significantly reduce the transmittance of the image of the local party received by the camera A device characterized by improvement without the need. 9. 9. The apparatus of claim 8, wherein the directional transmission layer comprises a louver assembly. An apparatus, comprising: 10. Eye contact between remote and local parties during a video conference An apparatus for realizing:   Means for passing the image of the remote party radiated from the terminal screen Wherein said means comprises a plurality of microlouvers substantially orthogonal to said screen Means,   Reflects the image of the local party, radiates from the terminal screen and passes Means for transmitting the image of the remote party passed by the means;   Capturing the image of the local party reflected from the reflecting and transmitting means And minimizes interfering light emitted from ambient sources and from images of the remote party. Means for optimizing contrast by capturing and minimizing Means for reflecting the image of the local party reflected from the reflecting and transmitting means Means that include   An apparatus comprising: